Shower curtain closure

ABSTRACT

A shower curtain closure includes a substantially vertical structure attached to a wall of a shower enclosure. The substantially vertical structure has a generally vertical channel containing a continuous magnetic strip. The continuous magnetic strip cooperates with a series of magnetic clips attached to a shower curtain or a series of magnets embedded within the shower curtain. The magnetic clips are secured to the shower curtain by opposing curtain grip surfaces, which can be spread apart to allow for installation of the shower curtain. The magnetic clips may be further secured by threaded bolts or formed with hinges that couple to curtain retainer components. Some magnetic clips may have protruding structures for handles. An optional horizontal channel structure having an optional angular component may be included, and an optional curtain retaining mechanism and a generally angular splash structure configured to relate with the vertical structure may be installed. A tool that aids in the separation of the curtain grip surfaces may also be employed.

BACKGROUND Technical Field

The present disclosure generally relates to shower curtain closure systems. More particularly, but not exclusively, the present disclosure relates to a shower current system having an acceptable operational efficiency, improved water retention, and an improved detachment mechanism.

Description of the Related Art

Plumbing fixtures designed for the purpose of cleaning the human body have existed for centuries. Early evidence of at least one bathing system comes from the Indus Valley of India around 3300 BC, and the ancient Greeks and Romans were known to have communal showers and bathhouses. The Kohler Company began manufacturing cast iron bathtubs in or about 1883, and the presence of a bathtub in the single-family home became more affordable. When showering became more popular in the second half of the 20th century, however, the problem of water escaping from the bathtub or shower enclosure emerged.

The “built in” bathtub or shower typically alleviates the escaping water issue on the back and side walls of the enclosure by using a water proof material that is sealed to the top surface of the fixture. Alternatively, or in addition, the base of the enclosure is constructed of tile or other water resistant material that seals to the outer walls. A door or curtain is typically installed across the front of the enclosure that can open to allow access and close to prevent the escape of splashing water.

Considering a shower door and a shower curtain, the shower door is often the more effective of these deterrents because most shower doors utilize an outer vertical frame that is sealed to the two side walls of the enclosure.

However, shower doors are typically much more expensive, typically need to be installed by a professional, and most require the use of a bottom track that is installed on the top face of the tub or shower threshold, which can be unsightly and an obstacle especially on the higher apron of a bathtub. Shower curtains have the advantage of typically lower expense, no bottom track, typically do not need to be installed by a professional, and in many cases they are more attractive. However, shower curtains are more prone to splashing water leakage due to the lack of a positive seal with the side walls of the enclosure, and this creates a potentially hazardous situation in addition to the potential of structural damage.

Several attempts have been made to solve the shower curtain leakage problem. Magnets and weights have been incorporated into the shower curtain design, and various shaped splash guard structures have been installed at the connection between the front edge of the bathtub or shower threshold and the side walls of the enclosure. Other designs have been proposed that utilize VELCRO strips, hooks, and suction cups to secure the shower curtain to the outer walls.

Other methods have been proposed that utilize an outer vertical component that is sealed to the side walls of the shower enclosure and an inner vertical component connected to the shower curtain that join using a variety of techniques such as magnets, projecting ribs and grooves, and flexible fingers.

All of the subject matter discussed in the Background section is not necessarily prior art and should not be assumed to be prior art merely as a result of its discussion in the Background section. Along these lines, any recognition of problems in the prior art discussed in the Background section or associated with such subject matter should not be treated as prior art unless expressly stated to be prior art. Instead, the discussion of any subject matter in the Background section should be treated as part of the inventor's approach to the particular problem, which, in and of itself, may also be inventive.

BRIEF SUMMARY

The inventor has discovered that previous attempts to solve the shower curtain leakage problem using magnets and weights incorporated into the shower curtain design, various shaped splash guard structures, and other designs that utilize VELCRO strips, hooks, and suction cups to secure the shower curtain to the outer walls have been less successful because they do not secure the shower curtain to a continuous structure that is attached to the outside walls of the enclosure. The inventor has also discovered that methods utilizing an outer vertical component sealed to the side walls of the shower enclosure and an inner vertical component connected to the shower curtain, which are joined using magnets, projecting ribs and grooves, or flexible fingers, are also less desirable for several reasons. Some reasons are that attaching the shower curtain to a solid component is difficult, heavy, and cumbersome to use, and these systems will not prevent water from escaping the enclosure when secured to the outer component. Other reasons are that ribs and grooves and flexible fingers will harden over time and become difficult to use or fail. Conversely, none of the previous attempts known by the inventor have utilized one or more magnets in the forms of a magnetic strip and a plurality of magnetic clips, embedded within a shower curtain, or arranged in one or both of a curtain and a continuous vertical structure that is attached to the outside walls of the enclosure.

The shower curtain closure embodiments described herein are generally simple in construction, and efficient and reliable in implementation. In at least one embodiment, the shower curtain closure has a substantially vertical structure that is attached to a wall surface of a tub or shower enclosure comprising of a substantially vertical channel containing a substantially continuous magnetic strip that cooperates with a plurality of magnetic clips that are attached to a shower curtain. In other embodiments, the clips are replaced by magnets embedded or otherwise coupled to or within the shower curtain.

In at least one embodiment, clips are secured to the shower curtain by opposing curtain grip surfaces. The opposing curtain grip surfaces are arranged to spread apart to allow for removal and re-installation. In other embodiments the clips are secured by bolts that are rotated into threaded receptacles thereby compressing the curtain grip surfaces. In still other embodiments, clips are formed with hinges that couple to curtain retainer components, and the clips are secured together by inserting protruding edges of the clips into corresponding recesses in the retainer components which thereby compress against the shower curtain or each of the plurality of clips includes a spring mechanism to secure the shower curtain. The outer clips may have protruding structures for handles that aid in the opening and closing of the curtain. In some embodiments, an optional horizontal channel structure having an optional angular component may be included, and an optional curtain retaining mechanism and a generally angular splash structure configured to relate to the vertical structure may be installed. Any or all of the optional horizontal channel structure, optional angular component, and optional angular splash structures, if included, may be located at the connection region between the top of the tub or shower and the outer walls of the enclosure. A tool that aids in the separation of the curtain grip surfaces is also described.

This Brief Summary has been provided to introduce certain concepts in a simplified form that are further described in detail below in the Detailed Description. Except where otherwise expressly stated, the Brief Summary does not identify key or essential features of the claimed subject matter, nor is it intended to limit the scope of the claimed subject matter.

BRIEF DESCRIPTION OF THE SEVERAL VIEWS OF THE DRAWINGS

Non-limiting and non-exhaustive embodiments are described with reference to the following drawings, wherein like labels refer to like parts throughout the various views unless otherwise specified. The sizes and relative positions of elements in the drawings are not necessarily drawn to scale. For example, the shapes of various elements and angles are not drawn to scale, and some of these elements are enlarged and positioned to improve drawing legibility. Further, the particular shapes of the elements as drawn do not limit the actual shape of the particular elements and have been solely selected for ease of recognition in the drawings. One or more embodiments are described hereinafter with reference to the accompanying drawings in which:

FIG. 1 is an elevation view of a tub enclosure with a shower curtain closure embodiment;

FIG. 2 is a perspective view of an embodiment of the shower curtain closure of FIG. 1;

FIG. 3 is a cross-sectional view of a shower curtain closure different from the shower curtain closure of FIG. 2, but along the lines of such closure if taken along section line 1-1 in FIG. 2;

FIG. 4 is a cross-sectional view of another embodiment of a shower curtain closure different from the shower curtain closure of FIG. 2, but along the lines of such closure if taken along section line 1-1 in FIG. 2 wherein certain magnetic clips are replaced by magnets embedded within the shower curtain and the outer edge of the vertical structure is shortened;

FIG. 5 is a perspective view of a substantially horizontal angular channel structure configured to relate to the vertical structure of FIG. 1;

FIG. 6 is a perspective view of a generally angular splash structure configured to relate to the vertical structure of FIG. 1;

FIG. 7 is a cross-sectional view of another embodiment of a shower curtain closure different from the shower curtain closure of FIG. 2, but along the lines of such closure if taken along section line 1-1 in FIG. 2 wherein certain magnetic clips are secured to the shower curtain by threaded structures;

FIG. 8 is a cross-sectional view of another embodiment of a shower curtain closure different from the shower curtain closure of FIG. 2, but along the lines of such closure if taken along section line 1-1 in FIG. 2 wherein the magnetic clips are formed with hinge structures that couple to curtain retainer components and the magnetic strip is moved to the vertical base of the vertical structure;

FIG. 9 is a plan view of a tool that aids in the separation of the curtain grip surfaces;

FIGS. 10-13 are the elevation view of the tub enclosure with the shower curtain closure embodiment of FIG. 1 being closed by a user; and

FIG. 14 is the elevation view of the tub enclosure with the shower curtain closure embodiment of FIG. 1 in a closed position.

DETAILED DESCRIPTION

The embodiments of the invention described herein relate to shower curtain closure systems whereby a shower curtain (e.g., plastic shower curtain, vinyl shower curtain, shower liner, shower screen, shower drape, shower door, or the like) is secured to the outer walls of a bathing space such as a tub or shower enclosure in a manner that is acceptably efficient to operate (e.g., an average shower user is able to open and close the inventive shower curtain in about the same amount of time as the user is able to open and close a conventional shower curtain), arranged to substantially or completely prevent the escape of water, and is readily detachable from the shower curtain. The shower curtain of the present disclosure is generally sized to cover the opening of the bathing space without undue strain or stretching and without substantially more (e.g., without 10% more, without 25% more, without 100% more) shower curtain material than would be formed in a conventional shower curtain. In many embodiments, a conventional shower curtain may be used or adapted for use as the shower curtain described in the present disclosure.

In at least one embodiment, the shower curtain closure has a substantially vertical structure that is attached to a wall surface of a tub or shower enclosure comprising of a substantially vertical channel containing a substantially continuous magnetic strip that cooperates with a plurality of magnetic clips that are attached to a shower curtain. In other embodiments the magnetic clips may be replaced by magnets embedded or otherwise coupled to or within the shower curtain. In these cases, the plurality of clips is configured to magnetically couple one or more portions of the shower curtain to the substantially vertical structure. Due at least in part to the magnetic cooperation of the various components, the shower curtain closure system is configured to form a substantially water-tight seal between the portion of the curtain and the wall of the bathing space.

Methods by which the magnetic clips are secured or otherwise coupled to or within a shower curtain are also described herein. For example, in an embodiment, the clips are secured to the shower curtain by opposing curtain grip surfaces, which can be easily spread apart to allow for removal and re-installation of the same or a different shower curtain. In other embodiments the clips are secured by threaded structures (e.g., bolts, screws, or other threaded structures), which are rotated into corresponding threaded receptacles thereby compressing the curtain grip surfaces. In still other embodiments the clips are formed with hinge structures (e.g., hinges, springs, pre-formed metal or plastic material biased in a desirably rotatable manner, or the like), that couple to curtain retainer components and are secured together by a spring mechanism, by inserting the protruding edges of the clips into corresponding recesses in the retainer components which compress against the shower curtain, or by some other like securing means. In addition, the outer clips may have protruding structures for handles that aid in the opening and closing of the curtain. A substantially horizontal channel structure, which may optionally be angular, and which optionally may include a curtain retaining mechanism is described. An optional, generally angular splash structure that may be configured to relate to the substantially vertical structure is described, and a tool that aids in the separation of the curtain grip surfaces are also described.

Heretofore, attempts to solve the problem of securing shower curtains so as to prevent the escape of splashing water from the opening in a bathing space have been ineffective because many do not secure the shower curtain to a continuous structure that is attached to the outside walls of the bathing space enclosure as described herein. Attempts have also been made to design a shower curtain closure system that utilizes an outer vertical component that is sealed to the side walls of the shower enclosure and an inner vertical component connected to the shower curtain. However, the known designs are heavy and cumbersome to use, difficult to remove and re-install, and will not prevent water from escaping the enclosure when secured to the outer component.

FIGS. 1-9 illustrate different views and embodiments of shower curtain closure system embodiments 100 and 100A-100F. The closure structures described herein with respect to FIGS. 1-9 are merely different but related embodiments that illustrate the devices, systems, and methods (e.g., the teaching of the present disclosure) of the inventive concepts described herein. It is understood that other closure structure embodiments may be formed having different spatial attributes, materials, dimensions, and relative dimensional relationships than those illustrated in FIGS. 1-9 and discussed herein. For the sake of brevity, it is understood that any of the embodiments 100, 100A-100F may be referred to as a system embodiment 100 unless it is expressly necessary to refer to the specific embodiment of the respective illustration.

FIG. 1 is an elevation view of a tub enclosure with a shower curtain closure embodiment 100. In the elevation view in FIG. 1, a bathtub 109 and a shower enclosure 110 defines a bathing space. A shower curtain 107 hanging from a shower rod 108 cover an opening in the bathing space. The shower curtain closure embodiment 100 includes first and second substantially vertical structures 101 at opposing walls of the bathing space. The curtain 107 includes, at opposing edges, outer magnetic clips 102 and inner magnetic clips 103, which clips may be integrated permanently or removably affixed to the curtain 107. That is, one or more of the outer magnetic clips 102 and inner magnetic clips 103 may in some cases be configured for removable coupling to the shower curtain 107; and in other cases, one or more of the outer magnetic clips 102 and inner magnetic clips 103 may be configured for permanent coupling to the shower curtain 107. In still other cases, one or more of the outer magnetic clips 102 and inner magnetic clips 103 may be permanently integrated with the shower curtain 107. In the embodiment of FIG. 1, the shower curtain is shown in an open position.

In the shower curtain closure embodiment 100 of FIG. 1, the outer magnetic clips 102 and inner magnetic clips 103 are shown on the left side of the shower enclosure 110. An alternative or additional embodiment is also shown in FIG. 1 on the right side of the shower enclosure 110. In this alternative or additional embodiment, the inner magnetic clips 103 are not used, and instead, magnets 104 are embedded or otherwise coupled to or within the shower curtain 107. Optionally, and as represented in FIG. 1, handles 105 are directly attached to the shower curtain 107. One of skill in the art will recognize that one or more of the embodiments discussed with respect to one side of the shower curtain 107 one side of the bathing space may or may not also be included on any other side of the respective structure. Along these lines, one of skill in the art will recognize that any one or more of the embodiments discussed with respect to the shower curtain 107 may selectably or desirably locate outer magnetic clips 102, inner magnetic clips 103, handles 105, and other structures at any selected portion of the curtain 107.

In some cases, the shower curtain closure embodiment 100 of FIG. 1 optionally includes a substantially horizontal angular channel structure 106. The substantially horizontal angular channel structure 106 may be arranged as structural support for the substantially vertical structures 101, as a particularly defined coupling location for an outer magnetic clip 102, as an additional water diversion structure to enable a substantially water-tight seal, or for some other purpose.

In some cases, one or more optional coupling mechanisms 118 may be removably or fixedly attached to the shower curtain 107. The coupling mechanism 118 may be formed as a single structure or a plurality of cooperative structures. The coupling mechanism 118 is arranged, when included, to reduce or prevent “billowing” of a shower curtain. The inventor has recognized that the substantially water-tight seal created by the shower curtain closure embodiments 100 of the present disclosure, particularly when water is running in the bathing space, may create a vacuum-based pressure that draws the shower curtain 107 into the bathing space.

In at least one embodiment, shower curtain 107 is an inner shower curtain facing the inside of the bathing space, and the optional coupling mechanism 118 is included to removably couple the shower curtain 107 to an outer shower curtain (not shown) that faces the room where the bathing space is located. The coupling mechanism 118 is arranged to prevent the inner shower curtain 107 from intruding into the bathing space when the space is in use. The optional coupling mechanism 118 may be arranged as a weight, an air pressure equalization port (e.g., valve, release, sluice, nozzle, or the like), a hook and loop system (e.g., VELCRO), a magnetic system, a decorative bolt or screw and corresponding nut or imbedded threaded receptor, or some other suitable device to couple the shower curtain 107 to an outer curtain. The coupling mechanism 118 may optionally be formed on or within one or both curtains, and in addition, or in the alternative, the coupling mechanism 118 may be installed with double-stick tape, silicone, a sewing means (e.g., thread), or some other type of connecting means.

FIG. 2 is a perspective view of an embodiment of the shower curtain closure of FIG. 1. Some central portions of the shower curtain closure embodiment 100 are not shown so as to enlarge particular features in the figure.

FIG. 3 is a cross-sectional view of a shower curtain closure embodiment 100A different from the shower curtain closure of FIG. 2, but along the lines of such closure if taken along section line 1-1 in FIG. 2. In the perspective view of FIG. 2, the shower curtain 107 is in an open position. In the cross-sectional view of FIG. 3, the shower curtain 107 is in a closed position.

The shower curtain closure embodiment 100 has a substantially vertical structure 101 arranged for permanent, semi-permanent, or temporary attachment to the wall of shower enclosure 110 or some other suitable area of the bathing space (i.e., the shower environment). The substantially vertical structure 101 magnetically cooperates with a plurality of magnetic clips (e.g., outer magnetic clips 102, inner magnetic clips 103). An outer magnetic clip 102 is illustrated in FIG. 3.

The substantially vertical structure 101 is realized by forming a substantially vertical base 111, which is arranged for affixation to the shower enclosure 110 or some other suitable area of the shower environment. Affixation of the substantially vertical base 111 may be via an adhesive material 116 to facilitate in the installation. Alternatively, or in addition, screws, rivets, or some other means of affixation may also be used. In some cases, the adhesive material 116 includes a sealant or is otherwise used or combined with a sealant on determined portions of the shower curtain closure embodiment 100 to achieve a substantially water tight seal between the substantially vertical structure 101 and the enclosure wall 110 or some other suitable area of the shower environment. For example, two-sided tape and silicone caulking could be used to achieve a suitable permanent or semi-permanent bond and seal. Any number of other means and methods could be alternatively or additionally used as well to adhere the substantially vertical structure 101 to the enclosure wall 110 or some other suitable area of the shower environment. A non-exhaustive, non-limiting set of means of affixation includes two-sided tape, silicon-based caulk, screws, or glue, or any other suitable types of fasteners, sealants, caulking, and adhesives.

Integrated with the vertical base 111 is a substantially vertical channel 112 that may optionally encompass a substantially vertical magnetic strip 113. When so included, the magnetic strip 113 may be formed having any suitable dimensions (e.g., thicknesses, lengths, sizes, and the like). The optional magnetic strip 113 may be mounted in a variety of different locations such as on the surface of the vertical base 111, between the vertical base 111 and the enclosure wall 110, or in some other locations. In some cases, the magnetic strip 113 may be a continuous strip, a set of segments of magnetic material, or some other form. In some embodiments, a magnetic strip 113 may be eliminated altogether if all or part of the substantially vertical structure 101 is constructed of a magnetic material (e.g., a ferrous material).

The substantially vertical channel 112 may be square, rectangular, u-shaped, v-shaped, rounded, or the substantially vertical channel 112 may be formed with any other spatial attribute or shape that will allow for the acceptably efficient application of the magnetic strip 113. In some cases, the shape of the vertical channel 112 may also be selected and so arranged as to channel water down to the bathtub 109 or other structure (e.g., shower pan/base). In some cases, water is channeled without allowing escape outside the shower curtain closure embodiment.

The substantially vertical structure 101 may be formed in any size, width, length and configuration. Dimensions of the substantially vertical structure 101 may be selected for efficient coupling with the shower curtain 107. In some cases, dimensions of substantially vertical structure 101 are selected so as to reduce or eliminate the escape of water from the bathing space. Some exemplary lengths of the substantially vertical structure include 5 feet in length for a standard tub and 6 feet for a standard shower.

In at least some non-limiting shower curtain closure embodiments 100 of the present disclosure, the outer magnetic clips 102 and inner magnetic clips 103 are realized by forming a divided body 201 with a recess that encompasses the shower curtain 107. In such an embodiment, shower curtain 107 is secured by curtain grip surfaces 202. The divided body 201 may be u-shaped, v-shaped, rounded, square, or formed having any other selected spatial attribute or shape that will allow for the separation of the curtain grip surfaces 202 during installation on the shower curtain 107 and also allow for the re-compression of the curtain grip surfaces 202 after installation to secure the shower curtain 107.

The curtain grip surfaces 202 may have a determined arrangement of opposing grooves, notches, protrusions, indentations, or some other adhesion means that aid in the securing of the shower curtain 107. The curtain grip surfaces 202 in other embodiments may be formed having other shapes, spatial attributes, or the like. In some cases, particular materials may be incorporated into, or otherwise associated with, the grip surfaces 202. For example, flexible, abrasive, adhesive, high-friction, or other such elements may be applied to one or both of the curtain grip surfaces 202 to assist in securing shower curtain 107. The inventor has also contemplated other like methods and means that allow for the proper securing of the shower curtain 107.

In some cases, one or more magnets 203 may be integrated with or attached to the end, side, or some other suitable portion of the divided body 201. In addition, or in the alternative, one or more magnets 203 may be arranged in other locations depending, for example, on the placement of the magnetic strip 113 in the substantially vertical structure 101 and the configuration of the outer magnetic clips 102 and inner magnetic clips 103. The magnet 203 may be formed in any desirable configuration, which may include a variety of sizes, shapes (e.g., round, square, or any other shape), materials, and other characteristics. The characteristics may be selected so that the magnet 203 can perform an acceptably effective magnetic coupling with the magnetic strip 113 or substantially vertical structure 101 if the substantially vertical structure 101 is constructed of a magnetic (e.g., ferrous) material. The magnet 203 may be integrated with or otherwise secured to the outer magnetic clips 102 and inner magnetic clips 103 in a variety of ways. For example, the magnet 203 may be mounted on, encapsulated, or otherwise incorporated in any type of housing formed on the surface or within the divided body 201. In some cases, the magnet 203 may be eliminated entirely if all or part of the outer magnetic clip 102 and inner magnetic clip 103 are constructed of a magnetic (e.g., ferrous) material.

In at least some of the non-limiting shower curtain closure embodiments 100 of the present disclosure, the outer magnetic clips 102 may be constructed with protruding structures 204. The protruding structures 204 may be arranged to act as handles 105, which may aid in the control of the shower curtain 107 when coupling shower curtain 107 with the substantially vertical structure 101. In some cases, the protruding structures 204 may additionally or alternatively provide a lever function when spreading the curtain grip surfaces 202 during installation, removal, or adjustment on the shower curtain 107.

The protruding structures 204 may be formed in any desirable shape. For example, protruding structures 204 could be straight, or curved, or L-shaped, and protruding structures 204 could be in line with each other or offset. In some cases, the protruding structures 204 (e.g., handles 105) may be eliminated on the inner magnetic clips 103 because they are not required in the manipulation of the curtain. In these and in some alternative cases, however, sufficient portions of the protruding structure may optionally be maintained to facilitate the spread of the curtain grip surfaces 202.

The outer magnetic clips 102 and inner magnetic clips 103 may be formed in any size, width, length, and configuration that allows for proper installation on the shower curtain 107. The configuration of the outer magnetic clips 102 and inner magnetic clips 103 may be selected to provide suitably acceptable ease and efficiency of operation when coupling the outer magnetic clips 102 and inner magnetic clips 103 with the substantially vertical structure 101. The configuration of the outer magnetic clips 102 and inner magnetic clips 103 may be selected to not be so large that they are deemed to be unreasonably unattractive or determined to weigh too heavily on the shower curtain 107.

The outer magnetic clips 102 and inner magnetic clips 103 may be positioned in a variety of ways. For example, the outer magnetic clips 102 and inner magnetic clips 103 may be provided with locations, spacing, and quantity so that the shower curtain 107 is maintained in a position that substantially prevents the escape of water from a conventional shower enclosure 110. In at least one embodiment, outer magnetic clips 102 and inner magnetic clips 103 are spaced about evenly. In at least one embodiment, first, top outer magnetic clip 102 is arranged on the shower curtain 107 to magnetically contact or otherwise magnetically cooperate with the substantially vertical structure 101 at about three (3) inches from the top, and a second, bottom outer clip is arranged on the shower curtain 107 to magnetically contact or otherwise magnetically cooperate with the substantially vertical structure 101 at about two (2) inches from the bottom. In at least one other embodiment, one or two inner magnetic clips 103 are arranged about six (6) inches from the end of the substantially vertical structure 101.

The substantially vertical structure 101, outer magnetic clips 102, and inner magnetic clips 103 may be formed from any suitable material. Suitable materials include, but are not limited to, a metal such as copper, an alloy such as brass or stainless steel, or a non-metal such as plastic, ceramic, or composite. The substantially vertical structure 101, outer magnetic clips 102, and inner magnetic clips 103 may be cast, forged, injection molded, or made by any other suitable process. In addition, different combinations of materials may be used to form the various components. For example, the substantially vertical structure 101 could be formed from plastic and the outer magnetic clips 102 and inner magnetic clips 103 could be made of metal or alloy. Alternatively, the substantially vertical structure 101 could be formed from a metal or alloy, and the outer magnetic clips 102 and inner magnetic clips 103 could be made of plastic. Other combinations have also been contemplated.

In some cases, outer magnetic clips 102 and inner magnetic clips 103 may be formed from a plastic composite that has a “memory” or other biasing characteristics. PEX, for example, might be a desirable material for the outer magnetic clips 102 and inner magnetic clips 103 because PEX can facilitate the spread and compression of the curtain grip surfaces 202.

The magnetic strip 113 and magnetic clip magnets 203 may be formed from a material that will achieve acceptable coupling without deterioration that is due, for example, to water or usage. In some cases, the magnetic strip 113 could be replaced by a ferrous or even a non-ferrous material. In some cases, the magnetic strip 113 may be eliminated entirely if, for example, the substantially vertical structure 101 were formed of a ferrous material. Along these lines, in some cases, the magnetic clip magnets 203 could be replaced by a ferrous material or eliminated entirely if the outer magnetic clips 102 and inner magnetic clips 103 were formed of a magnetic (e.g., ferrous) material and acceptable attraction is still achieved.

FIG. 4 is a cross-sectional view of another embodiment 100B of a shower curtain closure different from the shower curtain closure of FIG. 2, but along the lines of such closure if taken along section line 1-1 in FIG. 2, wherein certain magnetic clips are replaced by magnets embedded within the shower curtain 107 and the outer edge of the substantially vertical structure 101 is shortened. In the non-limiting embodiment, the outer magnetic clips 102 and inner magnetic clips 103 of FIGS. 1-3 are replaced by magnets 104 that are embedded in magnet enclosures 211. Magnet enclosures 211 are formed within the shower curtain 107 in the embodiment 100B of FIG. 4, but other arrangements are also considered. The magnet enclosures 211 may be formed, for example, as a silicone or plastic encasement, a sprayed coating, or in some other arrangement. In addition, in the embodiment 100B of FIG. 4, curtain handles 105 are formed as part of shower curtain 107 or otherwise attached thereto. Curtain handles are optional and may be formed to replace the handles of the outer magnetic clips 102.

The magnets 104 and curtain handles 105 may be positioned in any desirable locations and with any desirable spacing and quantity. The position, spacing, and quantity of magnets 104 and optional curtain handles 105 may be selected to allow for an acceptable ease of operation and coupling with the substantially vertical structure 101. The position, spacing, and quantity of magnets 104 and optional curtain handles 105 may be selected in any desirable way that facilitates or otherwise permits shower curtain 107 to be maintained in a position that substantially prevents the escape of water from a conventional shower enclosure 110. In at least one embodiment, magnets 104 are spaced about evenly. In at least one embodiment, the outer magnets 104 and optional curtain handles 105 are arranged about 3 three (3) inches from the top and within two (2) inches of the bottom of the substantially vertical structure 101. In at least one other embodiment, magnets 104 are arranged about six (6) inches from the end of the substantially vertical structure 101.

The magnets 104 may be arranged in any desirable shapes and sizes that will achieve an acceptable coupling without deterioration due, for example, to water or usage.

The optional curtain handles 105, when included, may be formed in any desirable shapes such as round, angled, or looped. The optional curtain handles 105 may be formed of any desirable materials such as a plastic, fabric, or some other suitable material. The optional curtain handles 105 may be desirably sized to aid in the ease and efficiency of operation when coupling with the substantially vertical structure 101. The optional curtain handles 105 may be appropriately sized and aesthetically arranged to be deemed sufficiently attractive. The optional curtain handles 105 may be formed to not weigh so heavily on the shower curtain 107 that the function of the shower curtain 107 is defeated.

FIGS. 5-6 illustrate different embodiments of substantially horizontal angular structures 106, 208 that may be installed on the top surface of a tub 109 or shower threshold. The substantially horizontal angular structures 106, 208 are configured to relate to the substantially vertical structure 101. These structures may be provided on certain applications to prevent water from escaping from the bottom of the substantially vertical structure 101 or shower curtain 107, such as tubs with rounded aprons or top surfaces that slope into the room. These structures may be provided for other reasons as described herein.

FIG. 5 is an embodiment 100C illustrating a perspective view of a substantially horizontal angular channel structure embodiment 106. In some cases, the substantially horizontal angular channel 106 may provide structural support for the substantially vertical structure 101, a guide mechanism for an outer clip 102, or some other benefit.

FIG. 6 is an embodiment 100D illustrating a perspective view of an angular splash structure embodiment 208.

In the non-limiting embodiment 100C of FIG. 5, a substantially horizontal angular channel structure 106 is realized by forming a substantially horizontal channel 206 that is configured to relate to the substantially vertical structure 101. In at least some cases, such as in the embodiment of FIG. 5, the substantially horizontal channel 206 includes an angular attachment 207 that attaches to at least one outer edge of the substantially vertical structure 101. In some cases, the angular attachment 207 may extend to the wall of the shower enclosure 110.

The substantially horizontal channel 206 may be L-shaped, U-shaped, rounded, or formed with some other shape. The substantially horizontal channel 206 may be formed with any suitable configuration, width, and length. The substantially horizontal channel 206 allows for the channeling of water from the substantially vertical structure 101 into the bathtub 109 or other structure (e.g., shower pan/base). In some cases, the substantially horizontal channel 206 may provide structural support for the substantially vertical structure 101, a guide mechanism for an outer clip 102, or some other benefit.

The angular attachment 207 may be triangular, rounded, or formed with some other linear or non-linear shape. The angular attachment 207 may be formed with any other configuration, length, and height. The angular attachment 207 allows for the channeling of water, and in at least some cases, the angular attachment 207 may aid in the positioning of the bottom of the shower curtain 107 by, for example, and outer clip 102.

In the non-limiting embodiment 100D of FIG. 6, an angular splash structure 208 is realized by forming a substantially flat base 209 and a substantially vertical structure 210 that are configured to relate to the substantially vertical structure 101. The substantially vertical structure 210 may attach to the outer edge of the substantially vertical structure 101 in some cases, and the substantially vertical structure 210 may extend to the wall of the shower enclosure 110 in these or in other cases. The vertical structure 210 may be angled, triangular, rounded, or formed in any other configuration, height, and width that will substantially prevent the escape of water.

The substantially horizontal angular channel structure 106 and angular splash structure 208 may be secured in their respective embodiments to the bathtub 109 or other structure (e.g., shower pan/base) using a sealant such as silicone. Other sealing means such as non-silicone sealants or adhesives (e.g., glue or two-sided tape) may also be used. The selected sealing means may be any substance that would provide an acceptably secure and water tight seal.

In their respective embodiments, the substantially horizontal angular structures 106, 208 may additionally or alternatively also be secured and sealed to the substantially vertical structure 101 with a mechanical connection means. The mechanical connection means may include one or more interlocking tabs and slots or other structures and rubber gaskets. The mechanical connection means may include a sealant or adhesive such as silicone, glue, plastic cement, or any other like means that insures an acceptably secure and water tight connection.

The substantially horizontal angular channel structure 106 and angular splash structure 208 may be formed from any suitable material. Suitable materials include, but are not limited to, a metal such as copper, an alloy such as brass or stainless steel, or a non-metal such as plastic, ceramic, or composite. The substantially horizontal angular channel structure 106 and angular splash structure 208 may be cast, forged, injection molded, or made by any other suitable process.

FIGS. 7-8 illustrate shower curtain closure embodiments 100E, 100F configured to secure to a shower curtain 107. In FIG. 7, shower curtain 107 is secured with threaded structures 301 (e.g., bolts, screws, or other threaded structures). In FIG. 8, shower curtain 107 is secured with hinged structures 303 (e.g., hinges, springs, pre-formed metal or plastic material biased in a desirably rotatable manner, or the like). FIG. 8 also demonstrates a different placement of magnetic clip magnets 203 and magnetic strip 113.

FIG. 7 is a cross-sectional view of another embodiment 100E of a shower curtain closure different from the shower curtain closure of FIG. 2, but along the lines of such closure if taken along section line 1-1 in FIG. 2 wherein certain magnetic clips are secured to the shower curtain by threaded structures. Different from the embodiment of FIG. 3, the outer magnetic clip 102 in FIG. 7 is secured to the shower curtain 107 by a threaded structure 301.

FIG. 8 is a cross-sectional view of another embodiment 100F of a shower curtain closure different from the shower curtain closure of FIG. 2, but along the lines of such closure if taken along section line 1-1 in FIG. 2 wherein the magnetic clips are formed with hinge structures that couple to curtain retainer components and the magnetic strip is moved to the vertical base of the vertical structure. Different from the embodiment of FIG. 3, the outer magnetic clip 102 is formed with a rotational structure 304 (e.g., a hinge, a spring, a pre-formed metal or plastic material biased in a desirably rotatable manner, or the like) that couples to a curtain hinge structure 303. In FIG. 8, the magnetic clip magnet 203 is moved to the side of the clip 102, and the magnetic strip 113 is moved to the vertical base 111 of the substantially vertical structure 101

In the non-limiting embodiment of FIG. 7, the divided body 201 of the outer magnetic clip 102 and inner magnetic clip 103 (FIG. 2) are constructed with an aperture arranged to receive a threaded structure 301. The aperture may include a corresponding threaded receptacle 302. The threaded structure 301 and threaded receptacle 302 are cooperatively configured so that tightening the threaded structure 301 will compress the curtain grip surfaces 202 against the shower curtain 107. The threaded structure 301 and threaded receptacle 302 may be formed from any suitable material. Suitable materials include, but are not limited to, a metal such as copper, an alloy such as brass or stainless steel, or a non-metal such as plastic, ceramic, or composite.

In some embodiments, the distal end of the threaded structure 301 may be sharpened or otherwise formed with a cutting edge to aid in the penetration of the shower curtain 107. In some embodiments, the head of the threaded structure 301 may be formed with a security pattern to limit unauthorized removal. In some cases, the threaded receptacle 302 may be replaced by threads tapped directly into the divided body 201.

In the non-limiting embodiment of FIG. 8, the outer magnetic clip 102 and inner magnetic clip 103 (FIG. 2) are constructed with a rotational structure 304 that connects with a curtain retainer component (i.e., hinged structure 303). The curtain retainer component in FIG. 8 is formed with a recess 306 that cooperates with a protruding edge 305 in the outer magnetic clip 102 and in the inner magnetic clip 103. The cooperation between the recess 306 and the protruding edge 305 secures the shower curtain 107 when the outer magnetic clip 102 and inner magnetic clip 103 are in the closed position. In an alternative embodiment, the recess 306 could be formed in the outer magnetic clip 102 and inner magnetic clip 103, and the protruding edge 305 could be formed in the curtain retainer component. The protruding edge 305 and recess 306 could be formed in a variety of shapes and configurations. The protruding edge 305 and recess 306 could be joined together in a variety of different ways including springs, clamps, protruding tabs and slots, or any other method that allows for acceptably securing of the shower curtain 107 into the outer magnetic clip 102 or inner magnetic clip 103 as the case may be. Alternatively, the rotational structure 304 could be formed with a spring 307 or some other spring-like structure, and the protruding edge 305 and recess 306 could be replaced by the curtain grip surfaces 202 (FIG. 3).

In at least one embodiment, the outer magnetic clip 102, inner magnetic clip 103, and curtain retainer component (e.g., hinged structure 303) could be formed as a single entity. In this case, the entity will have a flexible divided body 201 in place of the rotational structure 304.

The curtain retainer component (e.g., hinged structure 303) and the rotational structure 304 may be formed from any suitable material. Suitable materials include, but are not limited to, a metal such as copper, an alloy such as brass or stainless steel, or a non-metal such as plastic, ceramic, or composite.

The magnetic clip magnet 203 in FIG. 8 is shown in an alternate location on the side of the outer magnetic clip 102, and the magnetic strip 113 has been moved to the wall of the vertical base 111. In other embodiments, any number or configuration of a variety of magnet positions are contemplated. In other embodiments, magnetic clip magnet 203 and magnetic strip 113 are optional structures.

FIG. 9 illustrates a plan view of an embodiment 150 of a tool 401 that aids in the separation of the curtain grip surfaces 202 of the outer magnetic clip 102 and inner magnetic clip 103. In the embodiment of FIG. 9, the tool 401 is realized by forming separate structures that are configured to substantially surround an outer magnetic clip 102. The separate structures of the tool 401 are connected by a rotational structure 403 (e.g., a hinge, a spring, a pre-formed metal or plastic material biased in a desirably rotatable manner, or the like).

Substantially parallel, or otherwise aligned, clip grip structures 402 at a distal end of the tool 401 are constructed to contact the handles of the outer magnetic clip 102 and the shorter protrusions of the inner magnetic clip 103 so as to spread the curtain grip surfaces 202. Spreading the curtain grip surfaces 202 allows for installation, removal, repositioning, and other such adjustments of the outer magnetic clip 102 and the inner magnetic clip 103 onto the shower curtain 107. Substantially parallel or otherwise aligned handles 404 are formed at the proximal end of the tool 401 to aid in the operation of the tool 401. The handles 404 may be configured to limit the range of motion, which may prevent breakage or other damage of the outer magnetic clip 102 and the inner magnetic clip 103. The tool 401 may be formed from any suitable material. Suitable materials include, but are not limited to, a metal such as copper, an alloy such as brass or stainless steel, or a non-metal such as plastic, ceramic, or composite.

FIGS. 10-13 are elevation views of the tub enclosure with the shower curtain closure embodiment 100 as shown in FIG. 1 being closed by a user. As shown in FIG. 10, the user couples the outer magnetic clip 102 positioned near the top of the shower curtain closure embodiment 100 to a first vertical structure 101 positioned on the left side of the shower enclosure 110. As shown in FIG. 11, the user then couples the outer magnetic clip 102 positioned near the bottom of the shower curtain closure embodiment 100 to the first vertical structure 101. As the user couples the bottom outer magnetic clip 102, the inner magnetic clips 103 automatically couple to the vertical structure 101 on the left side of the shower enclosure 110. The outer magnetic clips 102 have a portion that is positioned within or partially within the vertical channel 112 of the first vertical structure 101 and includes a portion that is positioned outside or partially outside the vertical channel 112 of the first vertical structure 101. See FIGS. 3-4 and 7-8. As shown in FIG. 12, the user then couples the magnet 104 positioned near the top of the shower curtain closure embodiment 100 using the handle 105 positioned near the top of the shower curtain closure embodiment 100 to a second vertical structure 101 that is positioned on the right hand side of the shower enclosure 110. As shown in FIG. 13, the user then couples the magnet 104 positioned near the bottom of the shower curtain closure embodiment 100 using the handle positioned near the bottom of the shower curtain closure embodiment 100 to the second vertical structure 101. As the user couples the bottom magnet 104 of the shower curtain closure embodiment 100 using the handle to the second vertical structure 101 on the right hand side, the other magnets 104 between the top magnet 104 and the bottom magnet 104 automatically couple to the second vertical structure 101 on the right hand side of the shower enclosure 110. The user may pull on the shower curtain, may pull on the magnets, may couple all of the magnets at one time, or may use any other techniques or combination of techniques to couple the outer magnetic clips 102, the inner magnetic clips 103, and the magnets 104 to a respective vertical structure 101 to form a water tight seal for increased water retention.

While FIGS. 10-13 show the user being outside the tub or shower enclosure 110 when closing the shower curtain closure embodiment, the user may close the shower curtain closure embodiment 100 when the user is within the tub or shower enclosure 110 in a similar manner as discussed above. While the steps above as shown in FIGS. 10-13 are discussed in the order above, these steps can be performed by the user in any combination, order, or manner to couple the outer magnetic clips 102, the inner magnetic clips 103, and the magnets 104 to respective vertical structures 101 to form a water tight seal for increased water retention.

FIG. 14 is the elevation view of the tub or shower enclosure 110 with the shower curtain closure embodiment 100 as shown in FIG. 1 being in a closed position. As shown in FIG. 14, the outer magnetic clips 102, the inner magnetic clips 103, and the magnets 104 are coupled to respective vertical structures 101 and form a substantially water tight seal to keep water within the tub or shower enclosure 110 when the tub or shower is in use by an individual or the user.

In a first embodiment, a shower curtain closure includes a vertical structure that is attached to a wall surface of a tub or shower enclosure comprising of a substantially vertical channel containing a continuous magnetic strip that cooperates with a series of magnetic clips that are attached to a shower curtain. The clips are secured to the shower curtain by opposing curtain grip surfaces that can be easily spread apart to allow for removal and re-installation. The outer clips may have protruding structures for handles that aid in the opening and closing of the curtain.

In the shower curtain closure of the first embodiment, a substantially horizontal angular channel structure, or generally angular splash structure, is configured to relate to the vertical structure. The substantially horizontal angular channel structure may be located at the top of the tub or shower threshold. Also, a tool that aids in the separation of the curtain grip surfaces may be employed.

In a second embodiment magnetic clips are replaced by magnets embedded within the shower curtain.

In a third embodiment, magnetic clips are secured to the shower curtain by bolts that are rotated into threaded receptacles thereby compressing the curtain grip surfaces.

In a fourth embodiment, magnetic clips are formed with hinges that couple to curtain retainer components. The hinges are secured together by springs, by inserting protruding edges of the clips into corresponding recesses in the retainer components, or by another means, which compress against the shower curtain.

One advantage offered by shower curtain closures according to the present disclosure is that such shower curtain closure embodiments 100 are able to reduce or even eliminate the leakage of splashing water because they secure the shower curtain to a continuous structure that is attached to the outside walls of the enclosure by using a magnetic strip and/or series of magnetic clips, or magnets embedded within a shower curtain.

Another advantage is the ease of installation and removal of the clips from the shower curtain by simply spreading apart the curtain grip surfaces, rotating bolts into threaded receptacles, or by securing clips that are hinged to curtain retainer components by springs, by introducing the protruding edges of the clips into corresponding recesses of the curtain retainer components, or by another means.

An additional advantage is the substantially horizontal angular channel structure or generally angular splash structure; either of which may be used to divert water draining from the vertical structure into the bathtub or shower. Yet one more advantage is the tool that aids in the separation of the curtain grip surfaces.

In various parts of the disclosure, magnetic structures are described. As used herein, the term “magnetic” is used to include, without limitation, natural and man-made materials that produce a magnetic field as well as natural and man-made materials that are subject to influence by a magnetic field (e.g., attracted, repulsed). For the sake of example, and not limitation, magnetic structures may be formed from a pure magnetite or an alloy that includes magnetite, a pure ferrous material such as iron or a ferromagnetic material such as an alloy containing alnico (i.e., an alloy containing iron and one or more of aluminum, nickel, and cobalt), or any other such material. For the sake of example, and not limitation, magnetic structures may be formed in any suitable shape, hardness, softness, rigidity, flexibility, and the like. It will be understood by those of skill in the art that in the present disclosure, the terms, “magnet,” “magnetic,” “magnetically,” along with any derivative counterparts, may be interchanged without departing from the inventive subject matter discussed herein. And along these lines, these terms, as they are used in the present disclosure, include natural magnets (e.g., lodestone, magnetite), rare earth magnets (e.g., neodymium-iron-boron, samarium cobalt), and formed magnets (e.g., alnico), which include any material having a naturally occurring, imparted, or impartable property of attracting magnets or substances containing iron. As the terms are used herein, a magnet and a naturally or artificially magnetized structure, when suspended, will each position itself in approximately a north to south alignment.

Where the terms “substantial” or “about” in any grammatical form are used as modifiers in the present disclosure and any appended claims (e.g., to modify a structure, a dimension, a measurement, or some other characteristic), it is understood that the characteristic may vary by up to 30 percent. For example, if an average shower user is able open and close a conventional shower curtain in about two (2) seconds, then the same average shower user would be able to open and close the inventive shower curtain in about the same amount of time if the inventive shower curtain can be opened and closed in 1.4 seconds to 2.6 seconds (i.e., 30 percent of two (2) seconds is 0.6 seconds and a variance from two (2) seconds is 0.6 seconds less than and more than two (2) seconds). Considering another non-limiting example, a structure may be described as being mounted “substantially vertical.” In these cases, a device that is mounted exactly vertical is mounted along a “Z” axis that is normal (i.e., 90 degrees or at right angle) to a plane formed by an “X” axis and a “Y” axis. Different from the exact precision of the term, “vertical,” the use of “substantially” or “about” to modify the characteristic permits a variance of the “vertical” characteristic by up to 30 percent. Accordingly, a vertical channel that is mounted “substantially vertical” includes devices mounted between 63 degrees and 117 degrees. Conversely, a vertical channel that is mounted at 45 degrees of an X-Y plane, however, is not mounted “substantially vertical.” As yet one more example, a vertical channel having a particular linear dimension of “between about 30 inches and 90 inches” includes such devices in which the linear dimension varies by up to 30 percent. Accordingly, the particular linear dimension of the vertical channel may be between 21 inches and 117 inches.

The various embodiments described above can be combined to provide further embodiments. These and other changes can be made to the embodiments in light of the above-detailed description. In general, in the following claims, the terms used should not be construed to limit the claims to the specific embodiments disclosed in the specification and the claims, but should be construed to include all possible embodiments along with the full scope of equivalents to which such claims are entitled. Accordingly, the claims are not limited by the disclosure. 

1. A shower curtain closure system, comprising: a substantially vertical structure configured for attachment to a wall of a bathing space; a curtain arranged to cover an opening in the bathing space; and a plurality of clips configured to magnetically couple a portion of the curtain to the substantially vertical structure, the shower curtain closure system configured to form a substantially water-tight seal between the portion of the curtain and the wall of the bathing space when the plurality of clips are magnetically coupling the portion of the curtain to the substantially vertical structure.
 2. The shower curtain closure system of claim 1, comprising: a second substantially vertical structure configured for attachment to a second wall of the bathing space, wherein the second wall is opposing the wall of the bathing space; and a second plurality of clips configured to magnetically couple a second portion of the curtain to the second substantially vertical structure.
 3. The shower curtain closure system of claim 1 wherein the bathing space is a tub or shower enclosure.
 4. The shower curtain closure system of claim 1 wherein the curtain includes at least one of a shower curtain, a shower liner, and a shower door.
 5. The shower curtain closure system of claim 1 wherein the curtain is sized to cover the opening in the bathing space.
 6. The shower curtain closure system of claim 1 wherein the plurality of clips are configured for removable coupling to the curtain, and wherein the substantially vertical structure is arranged for permanent coupling to the wall of the bathing space.
 7. The shower curtain closure system of claim 1 wherein each one of the plurality of clips is permanently integrated with the curtain.
 8. The shower curtain closure system of claim 1, comprising: at least one means of adhering the substantially vertical structure to the wall of the bathing space.
 9. The shower curtain closure system of claim 1, wherein the substantially vertical structure includes a continuous magnetic strip.
 10. The shower curtain closure system of claim 9, wherein the continuous magnetic strip is formed from a ferrous material having magnetic properties instilled therein.
 11. The shower curtain closure system of claim 9, wherein individual ones of the plurality of clips include magnetic structures or wherein individual ones of the plurality of clips are formed from a magnetic material.
 12. The shower curtain closure system of claim 11, wherein individual ones of the plurality of clips are formed with opposing curtain grip surfaces, wherein the individual ones of the plurality of clips are arranged to be spread apart to allow for removal and re-installation of the curtain.
 13. The shower curtain closure system of claim 12, wherein the curtain grip surfaces are secured by threaded bolts.
 14. The shower curtain closure system of claim 12, wherein individual ones of the plurality of clips are formed with hinges that couple to curtain retainer components, wherein the plurality of clips secure the curtain by inserting protruding edges of the individual ones of the plurality of clips into corresponding recesses in the curtain retainer components to thereby compress against the curtain.
 15. The shower curtain closure system of claim 12, wherein individual ones of the plurality of clips are formed with hinges that couple to curtain retainer components, and wherein each of the plurality of clips includes a spring mechanism to secure the curtain.
 16. The shower curtain closure system of claim 12, comprising: a tool that aids in separating the curtain grip surfaces.
 17. The shower curtain closure system of claim 1, comprising: a substantially horizontal channel structure having an integrated angular splash structure, the substantially horizontal channel structure configured to relate to the substantially vertical structure and a surface of the bathing space.
 18. A shower curtain closure system, comprising: a substantially vertical structure arranged for attachment to a wall of a tub or shower enclosure, the substantially vertical structure arranged to magnetically cooperate with a shower curtain having a plurality of magnetic or ferrous structures embedded within the shower curtain.
 19. The shower curtain closure system of claim 18, further comprising: a second substantially vertical structure arranged for attachment to a second wall of the tub or shower enclosure, the second substantially vertical structure arranged to magnetically cooperate with the shower curtain having a plurality of clips configured to magnetically couple a portion of the shower curtain to the second substantially vertical structure.
 20. The shower curtain closure system of claim 19, wherein the second vertical structure includes a substantially vertical base configured to be coupled to the wall, a vertical channel configured to receive the plurality of clips, and a magnetic strip positioned within the vertical channel. 